In situ TEM observations on the structural evolution of a nanocrystalline W-Ti alloy at elevated temperatures

The thermal stability and nanoscale structural evolution at elevated temperatures of a sputter deposited W-Ti alloy thin film were studied by a combination of ex situ and in situ techniques. XRD, FIB, SEM-EDX and STEM-EDX were used to characterise the film annealed ex situ in vacuum at 1373 K for 48...

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Published in:Journal of alloys and compounds 2018-06, Vol.749, p.1000-1008
Main Authors: Callisti, M., Tichelaar, F.D., Polcar, T.
Format: Article
Language:English
Subjects:
Alloys
Annealing
Chemical vapor deposition
Cooling
Evolution
Grain boundaries
Heating
High temperature
High-temperature alloys
In situ TEM heating
Nanocrystals
Phases separation
Physical vapour deposition (PVD)
Segregations
Solid solutions
Structural stability
Structuralism
Thermal stability
Titanium
Tungsten base alloys
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cited_by cdi_FETCH-LOGICAL-c384t-1f313dc3772fa7968d3d7a3e8f11df9e737e47aa5b74d78369c3794b857755543
cites cdi_FETCH-LOGICAL-c384t-1f313dc3772fa7968d3d7a3e8f11df9e737e47aa5b74d78369c3794b857755543
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description The thermal stability and nanoscale structural evolution at elevated temperatures of a sputter deposited W-Ti alloy thin film were studied by a combination of ex situ and in situ techniques. XRD, FIB, SEM-EDX and STEM-EDX were used to characterise the film annealed ex situ in vacuum at 1373 K for 48 h. In situ TEM heating experiments were conducted at various temperatures up to 923 K to capture transitional phenomena occurring in the alloy upon heating and cooling. At a microscopic level, the alloy annealed at 1373 K for 48 h transformed from a single-phase β-(WTi) solid solution into a two-phase alloy consisting of Ti-rich grains in equilibrium with Ti-depleted β-(WTi) solid solution grains. In situ TEM observations revealed initial Ti segregations along columnar grain boundaries at T ∼ 423–573 K, followed by Ti-rich clusters formation in the grains interior at T ∼ 573–773 K. The microstructure observed at 923 K remained stable upon cooling to room temperature and consisted of Ti-rich segregations along the columnar grain boundaries and of alternate Ti-rich and Ti-depleted nanoscale domains in the grains interior, which formed a stable dual-phase nanocrystalline structure. •High temperature structural changes in W-Ti alloys are studied by in situ TEM.•β-(WTi) solid solution transforms macroscopically into a two-phase alloy.•Ti-rich segregations form along grain boundaries upon heating.•Alternate Ti-rich/Ti-depleted nanoscale domains form in the grains interior.•A stable dual-phase nanocrystalline structure forms after in situ heating.
doi_str_mv 10.1016/j.jallcom.2018.03.335
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subjects Alloys
Annealing
Chemical vapor deposition
Cooling
Evolution
Grain boundaries
Heating
High temperature
High-temperature alloys
In situ TEM heating
Nanocrystals
Phases separation
Physical vapour deposition (PVD)
Segregations
Solid solutions
Structural stability
Structuralism
Thermal stability
Titanium
Tungsten base alloys
title In situ TEM observations on the structural evolution of a nanocrystalline W-Ti alloy at elevated temperatures
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